Cruise report 2022106 - MAREANO methods cruise: AUV testing (Munin +)

This cruise report relates to the Mareano methods testing cruise undertaken in June 2022 which was mainly focussed on the use of the AUV Munin+ in habitat mapping, and the testing of a new shipborne ADCP. This report both records the activities of the cruise and provides some initial evalutaiton of these equiment and the data they collect.Cruise report 2022106 - MAREANO methods cruise: AUV testing (Munin +)publishedVersio

The Lofoten Basin Eddy: three years of evolution as observed by Seagliders

The Lofoten Basin in the Norwegian Sea is an area where the warm Atlantic Water is subject to the greatest heat losses anywhere in the Nordic Seas. A long-lived, deep, anticyclonic eddy is located in the central part of the basin (the Lofoten Basin Eddy, LBE). Here we use observations from Seagliders, collected between July 2012 and July 2015, to describe LBE in unprecedented detail. The missions were designed to sample LBE repeatedly, allowing for multiple realizations of radial sections across the eddy. LBE has a mean radius of 1864 km and propagates cyclonically with a mean speed of approximately 3–4 cm s21. The anticyclonic azimuthal peak velocity varies between 0.5 and 0.7 m s21, located between 700 and 900 m depth. The average contribution of geostrophy in the cyclogeostrophic balance is 44%. The relative vorticity of the core is close to the local Coriolis parameter. The evolution of core water properties shows substantial interannual variability, influenced by surface buoyancy flux and advection of anomalous low-salinity nearsurface waters that may affect the vertical extent of winter convection. A comparison of the eddy properties to those inferred from automated tracking of satellite altimeter observations shows that the location of eddy center is successfully detected to within one half eddy radius, but vorticity is underestimated and the radius overestimated, each approximately by a factor of 2, because of excessive smoothing relative to the small eddy radius.publishedVersio

Forsøk med drone til miljøovervaking i innsjø

I oktober 2013 vart det gjort forsøk med bruk av ein autonom farkost, glider, for miljøovervaking i innsjøen Hornindalsvatnet i Nordfjord. Slik farkost kan gjentekne gonger dykke til store djup og returnere til overflata og sende måledata til land. Kommunikasjon med glideren via satellitt fungerte bra, trass i høge fjell rundt vatnet. Glideren lot seg manøvrere til å dykke til berre nokre meter frå botnen før den snudde automatisk. Den innebygde funksjonen med å avbryte dykket og gå opp viss den kom nær botnen, fungerte også godt. .

Monitoring a lake by an underwater drone (glider)

I oktober 2013 vart det gjort forsøk med bruk av ein autonom farkost, glider, for miljøovervaking i innsjøen Hornindalsvatnet i Nordfjord. Slik farkost kan gjentekne gonger dykke til store djup og returnere til overflata og sende måledata til land. Kommunikasjon med glideren via satellitt fungerte bra, trass i høge fjell rundt vatnet. Glideren lot seg manøvrere til å dykke til berre nokre meter frå botnen før den snudde automatisk. Den innebygde funksjonen med å avbryte dykket og gå opp viss den kom nær botnen, fungerte også godt. ..The present report presents results from testing of an undulating underwater vehicle for environmental monitoring in a deep lake in Norway, Lake Hornindalsvatn, in October, 2013. A Slocum glider was used for the purpose. Some traditional measuring devices like lowered CTDs were applied as well, to collect data for comparisons...Vegdirektoratet/StatensVegvesenFylkesmannen i Sogn og FjordaneMiljødirektorate